Literature DB >> 30410203

Micro/nanostructures formation by femtosecond laser surface processing on amorphous and polycrystalline Ni60Nb40.

Edwin Peng1, Alfred Tsubaki2, Craig A Zuhlke2, Meiyu Wang1, Ryan Bell2, Michael J Lucis1, Troy P Anderson2, Dennis R Alexander2, George Gogos1, Jeffrey E Shield1.   

Abstract

Femtosecond laser surface processing is a technology that can be used to functionalize many surfaces, imparting specialized properties such as increased broadband optical absorption or superhydrophilicity/superhydrophobicity. In this study, two unique classes of surface structures, below surface growth (BSG) and above surface growth (ASG) mounds, were formed by femtosecond laser surface processing on amorphous and polycrystalline Ni60Nb40 with two different grain sizes. Cross sectional imaging of these mounds revealed thermal evidence of the unique formation processes for each class of surface structure. BSG mounds formed on all three substrates using the same laser parameters had similar surface morphology. The microstructures in the mounds were unaltered compared with the substrate before laser processing, suggesting their formation was dominated by preferential valley ablation. ASG mounds had similar morphology when formed on the polycrystalline Ni60Nb40 substrates with 100 nm and 2 [H9262]m grain size. However, the ASG mounds had significantly wider diameter and higher peak-to-valley heights when the substrate was amorphous Ni60Nb40. Hydrodynamic melting was primarily responsible for ASG mound formation. On amorphous Ni60Nb40 substrates, the ASG mounds are most likely larger due to lower thermal diffusivity. There was clear difference in growth mechanism of femtosecond laser processed BSG and ASG mounds, and grain size does not appear to be a factor.

Entities:  

Keywords:  Femtosecond laser; Laser ablation; Microstructure; Ni60Nb40

Year:  2016        PMID: 30410203      PMCID: PMC6218947          DOI: 10.1016/j.apsusc.2016.11.107

Source DB:  PubMed          Journal:  Appl Surf Sci        ISSN: 0169-4332            Impact factor:   6.707


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